Atomic Mass Unit
- The unified atomic mass unit (u or sometimes a.m.u) is roughly equal to the mass of one proton or neutron:
- 1 u = 1.66 × 10−27 kg
- This value is provided on the exam data sheet
- The a.m.u is commonly used in nuclear physics to express the mass of subatomic particles. It is defined as
The mass of exactly one-twelfth of an atom of carbon-12
- Therefore, one atom of carbon-12 has a mass of exactly 12 u
- Since mass and energy are interchangeable, the a.m.u can also be expressed in MeV
- 1 u is equivalent to 931.5 MeV
Table of common particles with mass in a.m.u
- The mass of an atom in a.m.u is roughly equal to the sum of its protons and neutrons (nucleon number)
- For example, the mass of Uranium-235 is roughly equal to 235u
- However, note that the actual mass is slightly lower than the expected mass, due to mass-energy equivalence
- a.m.u might be quoted in kg or MeV since mass and energy are equivalent via
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- MeV is a unit of energy whilst kg is a unit of mass
Worked example
Estimate the mass of the nucleus of the element copernicium-285 in kg. Give your answer to 2 decimal places.
